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An Efficient Magnetic Coupler for UAV Wireless Charging | #Sciencefather #Researcherawards

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Introduction Wireless charging systems are emerging as a key enabling technology for the autonomous operation of unmanned aerial vehicles (UAVs). In this research, an efficient magnetic coupler is proposed to achieve tight magnetic coupling , precise alignment, and reduced energy loss during wireless charging. The integration of advanced sensing and mechanical design allows the UAV to autonomously align with the charging pad , enhancing both reliability and performance. Through optimized magnetic and circuit design, this study aims to establish a robust and efficient wireless power transfer framework for UAV applications. Magnetic Coupler Design and Optimization The proposed magnetic coupler utilizes a dual-coil tightly coupled structure that maximizes energy transfer efficiency while minimizing magnetic leakage . Optimization is performed using ANSYS Maxwell to ensure high coupling coefficients and minimal electromagnetic interference . This design contributes significantly t...
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Industry Impact Award 2025 | Celebrating Global Innovators | #Sciencefather #Researcherawards

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Introduction The Industry Impact Award 2025 stands as a prestigious honor recognizing outstanding individuals and organizations that have revolutionized industries through research, innovation, and leadership. Organized by ScienceFather and ResearcherAwards , this award bridges the gap between academic discovery and practical implementation. It honors those whose contributions have advanced technology, sustainability, and industrial progress, transforming ideas into impactful real-world outcomes. From pioneering scientific research to technological entrepreneurship, this recognition celebrates the global innovators shaping the industries of tomorrow. Research-Driven Industrial Innovation Research serves as the foundation of industrial transformation. The Industry Impact Award acknowledges scientists, engineers, and innovators who have translated laboratory breakthroughs into scalable industrial solutions. Whether through advanced materials , automation technologies , or computation...
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Drastic Slowdown of EIT Dynamics by Doppler Broadening #Sciencefather #ResearcherAwards

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  Introduction Electromagnetically Induced Transparency (EIT) plays a crucial role in the manipulation of light–matter interactions and is a cornerstone phenomenon in modern quantum optics . This effect allows an opaque medium to become transparent under specific conditions, enabling the development of advanced technologies such as optical switching , quantum memory , and slow-light devices . However, at room temperature, Doppler broadening caused by atomic motion significantly influences EIT dynamics, leading to complex transient behaviors . Understanding how this broadening modifies the temporal evolution of EIT is essential for achieving efficient and stable operation in practical quantum systems. This study focuses on exploring these transient dynamics using a combination of analytical and numerical approaches. Theoretical Framework and Model System The research employs a three-level Λ-type atomic system to model the interaction between a weak probe field and a strong co...
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Exploring Digital Biomarkers for Dementia Care #Sciencefather #Researcherawards

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Introduction Inactivity and the rise of psychological and behavioral symptoms among individuals with dementia pose major challenges in clinical care. Traditional assessment methods depend heavily on proxy-rated tools , which may not fully capture the real-time physiological and behavioral fluctuations of patients. To overcome this limitation, the integration of sensor-based digital biomarkers offers a promising avenue for continuous, objective, and non-invasive monitoring. This study focuses on evaluating the feasibility and adherence of wearable and environmental sensing technologies—specifically the Garmin Vivoactive5 and Somnofy systems —to explore the relationship between daytime activity levels and sleep quality in nursing home residents with dementia . Research Objective and Rationale The primary goal of this research is to investigate the interconnection between daytime activity and sleep parameters using sensor technologies. Understanding this relationship is crucial, as p...
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Power-Based Statistical Detection Using Magnetoelastic Sensors | #Sciencefather #Researcherawards

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Introduction The development of a contactless passive magnetoelastic sensing setup represents a significant advancement in the field of intelligent monitoring systems . Designed to detect pest or substance accumulation in confined environments such as laboratories and museum reserves , this innovative setup eliminates the need for direct contact with the monitored surface. The system operates through a flexible polymer slab with a Metglas® 2826MB magnetoelastic ribbon fixed to one end. By remotely exciting the slab with ultra-low amplitude vibration, the ribbon generates magnetic flux that varies with the mechanical behavior of the slab. This enables the accurate monitoring of physical changes associated with load accumulation in real time, thus offering a novel and efficient method for environmental sensing . System Architecture and Design The sensing system’s architecture integrates mechanical, magnetic, and electronic components to ensure precise and contactless monitoring. Th...
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An Experimental and Theoretical Study of Embedded Scintillator Fiber Probes | #Sciencefather #Researcherawards

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Introduction Optical fiber radiation sensing probes incorporating inorganic scintillator materials have emerged as powerful tools for high-precision dose measurement in radiotherapy . Their miniaturized size, high spatial resolution , and excellent linearity make them ideal for integration into sensing arrays . This study explores both experimental and theoretical aspects of the coupling efficiency between scintillator luminescence and optical fibers. By developing a mathematical model that includes the effects of fiber numerical aperture and fluorescence self-absorption , the research presents a refined understanding of light transmission behavior within these composite structures, paving the way for improved probe design and optimization. Theoretical Modeling of Scintillator Luminescence Coupling A key contribution of this study lies in its establishment of a theoretical model describing the interaction between the scintillator and the optical fiber. The model accounts for lumi...
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Excellence in Research Award | Celebrating Global Scientific Achievements #Sciencefather #Researcherawards

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Introduction The Excellence in Research Award stands as a global tribute to the brilliance, perseverance, and vision of scientists and researchers dedicated to advancing human knowledge. Organized by ScienceFather under the Global Particle Physics Excellence Awards , this honor recognizes individuals whose groundbreaking research has made a transformative impact in their disciplines. The award highlights not just scientific achievement but the spirit of innovation and collaboration that drives progress across academia, industry, and society. Advancing Global Scientific Knowledge Scientific discovery is the cornerstone of human progress. The Excellence in Research Award celebrates those who push the limits of understanding through novel methodologies and innovative experiments. By acknowledging researchers who contribute to expanding global knowledge, the award reinforces the importance of continuous exploration and scientific curiosity that drives technological and societal evolutio...
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